scholarly journals The existence and properties of two dimers of rat liver ecto-5′-nucleotidase

1984 ◽  
Vol 221 (2) ◽  
pp. 369-377 ◽  
Author(s):  
E M Bailyes ◽  
M Soos ◽  
P Jackson ◽  
A C Newby ◽  
K Siddle ◽  
...  
Keyword(s):  
Monoclonal Antibodies ◽  
Rat Liver ◽  
Peptide Mapping ◽  
Extracellular Domain ◽  
Enzymic Activity ◽  
Beta Subunit ◽  
Alpha Subunit ◽  
Beta Subunits ◽  
Solubilized Enzyme ◽  
Chemical Cross Linking

Immunoaffinity-purified rat liver 5′-nucleotidase contained two subunits of Mr 70 000 (alpha) and 38 000 (beta). Charge-shift electrophoresis and chemical cross-linking revealed that approx. 80% of the solubilized enzyme activity occurred as an alpha alpha-dimer of Mr 140 000. The remaining 20% was an alpha beta-dimer of Mr 108 000. The beta-subunit did not possess enzymic activity. Peptide mapping and immunoblotting with antibodies against the alpha- and beta-subunits showed that the beta-subunit was homologous with a part of the alpha-subunit. Three monoclonal antibodies against rat liver 5′-nucleotidase were characterized as binding to the extracellular domain of the enzyme. All three monoclonal antibodies and concanavalin A bound to the alpha-subunit, but no binding could be detected to the beta-subunit. It was therefore concluded that the beta-subunit was a fragment of an alpha-subunit that had lost an extracellular domain. Both forms of the enzyme occurred in freshly solubilized membrane preparations as well.

scholarly journals Mapping of antigenic and functional epitopes on the alpha- and beta-subunits of two related mouse glycoproteins involved in cell interactions, LFA-1 and Mac-1.

1983 ◽  
Vol 158 (2) ◽  
pp. 586-602 ◽  
Author(s):  
F Sanchez-Madrid ◽  
P Simon ◽  
S Thompson ◽  
T A Springer
Keyword(s):  
Monoclonal Antibodies ◽  
Structural Features ◽  
Cell Interactions ◽  
Beta Subunit ◽  
Alpha Subunit ◽  
Beta Subunits ◽  
Complement Receptor ◽  
Receptor Function ◽  
Alpha Subunits ◽  
Sds Page

Mouse Mac-1, a complement receptor-associated surface structure on macrophages, and LFA-1, a function-associated structure on lymphocytes, comprise a novel family of leukocyte differentiation antigens participating in adhesive cell interactions. Mac-1 and LFA-1 contain alpha-subunits of 170,000 and 180,000 Mr, respectively, and beta-subunits of 95,000 Mr noncovalently associated in alpha 1 beta 1 complexes. The structural relation between the alpha- and between the beta-subunits, and the location of functionally important sites on the molecules, have been probed with antibodies. Both non-cross-reactive and cross-reactive monoclonal antibodies (MAb) and antisera prepared to the purified molecules or the LFA-1 alpha-subunits were used. Reactivity with individual subunits was studied by immunoprecipitation after dissociation induced by high pH treatment, or by immunoblotting after SDS-PAGE. Cross-reactive epitopes on Mac-1 and LFA-1 were found to be present on the beta-subunits, which were immunologically identical. Non-cross-reactive epitopes that are distinctive for Mac-1 or LFA-1 were localized to the alpha-subunits. MAb to LFA-1 alpha-subunit epitopes inhibited CTL-mediated killing. Two MAb to Mac-1 alpha-subunit epitopes but not a third MAb to a spatially distinct alpha-epitope inhibited complement receptor function. Neither function was inhibited by a MAb binding to a common beta-subunit epitope. Therefore, sites of Mac-1 and LFA-1 involved in their respective adhesion-related functions, as well as distinctive structural features, have been localized to the alpha-subunits.

scholarly journals Investigations into the post-translational modification and mechanism of isopenicillin N:acyl-CoA acyltransferase using electrospray mass spectrometry

1993 ◽  
Vol 294 (2) ◽  
pp. 357-363 ◽  
Author(s):  
R T Aplin ◽  
J E Baldwin ◽  
P L Roach ◽  
C V Robinson ◽  
C J Schofield
Keyword(s):  
Mass Spectrometry ◽  
Electrospray Mass Spectrometry ◽  
Beta Subunit ◽  
Alpha Subunit ◽  
British Library ◽  
Beta Subunits ◽  
Post Translational Modification ◽  
Acetic Acids

Electrospray mass spectrometry (e.s.m.s.) was used to confirm the position of the post-translational cleavage of the isopenicillin N:acyl-CoA acyltransferase preprotein to give the alpha- and beta-subunits. The e.s.m.s. studies suggested partial modification of the alpha-subunit in vivo by exogenously added substituted acetic acids. E.s.m.s. has also allowed the observation in vitro of the transfer of the acyl group from several acyl-CoAs to the beta-subunit. N.m.r. data for the CoA species have been deposited as Supplementary Publication SUP 500173 (2 pages) at the British Library Document Supply Centre (DSC), Boston Spa, Wetherby, West Yorkshire LS23 7BQ, from whom copies can be obtained on the terms indicated in Biochem. J. (1993) 289, 9.

Analysis of subunit assembly of the Na-K-ATPase

1994 ◽  
Vol 266 (3) ◽  
pp. C579-C589 ◽  
Author(s):  
D. M. Fambrough ◽  
M. V. Lemas ◽  
M. Hamrick ◽  
M. Emerick ◽  
K. J. Renaud ◽  
...  
Keyword(s):  
Mammalian Cells ◽  
Sodium Pump ◽  
Beta Subunit ◽  
Alpha Subunit ◽  
Beta Subunits ◽  
Limited Region ◽  
Subunit Assembly ◽  
Alpha Subunits ◽  
Subunit Isoforms ◽  
P Type

The Na-K-ATPase, or sodium pump, is comprised of two subunits, alpha and beta. Each subunit spans the lipid bilayer of the cell membrane. This review summarizes our efforts to determine how the two subunits interact to form the functional ion transporter. Our major approach has been to observe the potential for subunit assembly when one or both subunits are truncated or present as chimeras that retain only a limited region of the Na-K-ATPase. DNAs encoding these altered subunit forms of the avian Na-K-ATPase are expressed in mammalian cells. Monoclonal antibodies specific for the avian beta-subunit are then used to purify newly synthesized avian beta-subunits, and the presence of accompanying alpha-subunits indicates that subunit assembly has occurred. The ectodomain of the beta-subunit (approximately residues 62-304) is sufficient for assembly with the alpha-subunit, and a COOH-terminal truncation of the beta-subunit that lacks aminoacyl residues beyond 162 will assemble inefficiently. A maximum of 26 aminoacyl residues of the alpha-subunit are necessary for robust assembly with the beta-subunit, when this sequence replaces the COOH-terminal half of the loop between membrane spans 7 and 8 in the SERCA1 Ca-ATPase. This region of the Ca-ATPase faces the lumen of the endoplasmic reticulum. These findings encourage study of other related questions, including whether there is preferential assembly of certain subunit isoforms and how various P-type ATPases are targeted to their appropriate subcellular compartments.

scholarly journals Expression of rat endopeptidase-24.18 in COS-1 cells: membrane topology and activity

1994 ◽  
Vol 300 (1) ◽  
pp. 37-43 ◽  
Author(s):  
P E Milhiet ◽  
D Corbeil ◽  
V Simon ◽  
A J Kenny ◽  
P Crine ◽  
...  
Keyword(s):  
Cell Surface ◽  
Culture Media ◽  
Enzymic Activity ◽  
Beta Subunit ◽  
Membrane Topology ◽  
Site Directed Mutagenesis ◽  
Alpha Subunit ◽  
Cell Extracts ◽  
Membrane Bound ◽  
Alpha Beta

Endopeptidase-24.18 (E-24.18; EC 3.4.24.18) is a metallopeptidase of the astacin family and is highly expressed in kidney brush-border membranes of rodents. Rat E-24.18 consists of two disulphide-linked alpha/beta dimers [(alpha/beta)2]. In order to investigate the mechanisms of assembly and the importance of each subunit in the enzymic process, the cloned cDNAs for the rat alpha and beta subunits were transiently expressed either alone or together in COS-1 cells. Immunoblotting of cell extracts and spent culture media showed that, when expressed alone, the alpha subunit is secreted, whereas the beta subunit is membrane-bound. In alpha/beta-transfected cells, the alpha subunit remained membrane-bound, but could be released from the cell surface after papain treatment or after incubation with 10 mM dithiothreitol. Furthermore, mutants of the alpha subunit in which the putative C-terminal anchor domain was deleted could still form cell-associated alpha/beta dimers. These results are consistent with a topological model of E-24.18 in which the beta subunit is anchored in the plasma membrane and the alpha subunit is retained at the cell surface through disulphide bridge(s) with the beta subunit. Both the alpha and beta recombinant subunits expressed in COS-1 cells showed little azocasein-degrading activity. However, activity of either individual subunits of alpha/beta dimers was increased after mild trypsin digestion, suggesting that in COS-1 cells the enzymes are synthesized as zymogens. Finally, inactivation of the alpha subunit by site-directed mutagenesis of Glu-157, which is believed to play a role in catalysis, showed that both subunits participate in the enzymic activity of the heterodimer.

scholarly journals A human leukocyte differentiation antigen family with distinct alpha-subunits and a common beta-subunit: the lymphocyte function-associated antigen (LFA-1), the C3bi complement receptor (OKM1/Mac-1), and the p150,95 molecule.

1983 ◽  
Vol 158 (6) ◽  
pp. 1785-1803 ◽  
Author(s):  
F Sanchez-Madrid ◽  
J A Nagy ◽  
E Robbins ◽  
P Simon ◽  
T A Springer
Keyword(s):  
Human Leukocyte ◽  
Beta Subunit ◽  
Alpha Subunit ◽  
Beta Subunits ◽  
Complement Receptor ◽  
Lymphocyte Function ◽  
Subunit Dissociation ◽  
Molecular Weights ◽  
Alpha Subunits ◽  
Sds Page

The human lymphocyte function-associated antigen-1 (LFA-1), the complement receptor-associated OKM1 molecule, and a previously undescribed molecule termed p150,95, have been found to be structurally and antigenically related. Each antigen contains an alpha- and beta-subunit noncovalently associated in an alpha 1 beta 1-structure as shown by cross-linking experiments. LFA-1, OKM1, and p150,95 alpha-subunit designations and their molecular weights are alpha L = 177,000 Mr, alpha M = 165,000 Mr, and alpha X = 150,000 Mr, respectively. The beta-subunits are all = 95,000 Mr. Some MAb precipitated only LFA-1, others only OKM1, and another precipitates all three antigens. The specificity of these MAb for particular subunits was examined after subunit dissociation by high pH. MAb specific for LFA-1 or OKM1 bind to the alpha L- or alpha M-subunits, respectively, while the cross-reactive MAb binds to the beta-subunits. Coprecipitation experiments with intact alpha 1 beta 1-complexes showed anti-alpha and anti-beta MAb can precipitate the same molecules. In two-dimensional (2D) isoelectric focusing-SDS-PAGE, the alpha subunits of the three antigens are distinct, while the beta-subunits are identical. Biosynthesis experiments showed alpha L, alpha M, and alpha X are synthesized from distinct precursors, as is beta. The three antigens differ in expression on lymphocytes, granulocytes, and monocytes. During maturation of the monoblast-like U937 line, alpha M and alpha X are upregulated and alpha L is downregulated. Some MAb to the alpha subunit of OKM1 inhibited the complement receptor type three. LFA-1, OKM1, and p150,95 constitute a novel family of functionally important human leukocyte antigens that share a common beta-subunit.

scholarly journals Protein kinase activity of the insulin receptor

1986 ◽  
Vol 235 (1) ◽  
pp. 1-11 ◽  
Author(s):  
S Gammeltoft ◽  
E Van Obberghen
Keyword(s):  
Insulin Receptor ◽  
Molecular Mechanisms ◽  
Kinase Activity ◽  
Beta Subunit ◽  
Alpha Subunit ◽  
Beta Subunits ◽  
Protein Kinase Activity ◽  
Intact Cells ◽  
Receptor Complexes ◽  
Alpha Subunits

The insulin receptor is an integral membrane glycoprotein (Mr approximately 300,000) composed of two alpha-subunits (Mr approximately 130,000) and two beta-subunits (Mr approximately 95,000) linked by disulphide bonds. This oligomeric structure divides the receptor into two functional domains such that alpha-subunits bind insulin and beta-subunits possess tyrosine kinase activity. The amino acid sequence deduced from cDNA of the single polypeptide chain precursor of human placental insulin receptor revealed that alpha- and beta-subunits consist of 735 and 620 residues, respectively. The alpha-subunit is hydrophilic, disulphide-bonded, glycosylated and probably extracellular. The beta-subunit consists of a short extracellular region which links the alpha-subunit through disulphide bridges, a hydrophobic transmembrane region and a longer cytoplasmic region which is structurally homologous with other tyrosine kinases like the src oncogene product and EGF receptor kinases. The cellular function of insulin receptors is dual: transmembrane signalling and endocytosis of hormone. The binding of insulin to its receptor on the cell membrane induces transfer of signal from extracellular to cytoplasmic receptor domains leading to activation of cell metabolism and growth. In addition, hormone-receptor complexes are internalized leading to intracellular proteolysis of insulin, whereas receptors are recycled to the membrane. These phenomena are kinetically well-characterized, but their molecular mechanisms remain obscure. Insulin receptor in different tissues and animal species are homologous in their structure and function, but show also significant differences regarding size of alpha-subunits, binding kinetics, insulin specificity and receptor-mediated degradation. We suggest that this heterogeneity of receptors may be linked to the diversity in insulin effects on metabolism and growth in various cell types. The purified insulin receptor phosphorylates its own beta-subunit and exogenous protein and peptide substrates on tyrosine residues, a reaction which is insulin-sensitive, Mn2+-dependent and specific for ATP. Tyrosine phosphorylation of the beta-subunit activates receptor kinase activity, and dephosphorylation with alkaline phosphatase deactivates the kinase. In intact cells or impure receptor preparations, a serine kinase is also activated by insulin. The cellular role of two kinase activities associated with the insulin receptor is not known, but we propose that the tyrosine- and serine-specific kinases mediate insulin actions on metabolism and growth either through dual-signalling or sequential pathways.(ABSTRACT TRUNCATED AT 400 WORDS)

scholarly journals Distinct mutations in two patients with leukocyte adhesion deficiency and their functional correlates.

1990 ◽  
Vol 172 (1) ◽  
pp. 335-345 ◽  
Author(s):  
A J Wardlaw ◽  
M L Hibbs ◽  
S A Stacker ◽  
T A Springer
Keyword(s):  
Amino Acid ◽  
Leukocyte Adhesion ◽  
Expression System ◽  
Beta Subunit ◽  
Alpha Subunit ◽  
Beta Subunits ◽  
Cdna Clones ◽  
Loss Of Function ◽  
Leukocyte Adhesion Deficiency ◽  
Mammalian Expression

Two patients with leukocyte adhesion deficiency (LAD), one with a moderate phenotype (patient 14) and one with a severe phenotype (patient 2) who had been shown to have a normal sized beta subunit protein precursor, were analyzed in an attempt to determine the molecular basis for their disease. RNase mapping located possible mutations to two distinct but adjacent regions of the beta subunit cDNA. Sequencing of patient-derived cDNA clones in this region revealed a C for T difference at amino acid 149 in patient 14 which resulted in the substitution of a leucine for a proline, and an A for G substitution at amino acid 169 in patient 2 which mutated a glycine to an arginine. The mutated amino acids are in a region of the cDNA that is highly conserved between the beta subunits of the integrin family and are identical in all known integrin beta subunits. Co-transfection of the beta subunit cDNA containing the patient 2 mutation with the wild-type alpha subunit of LFA-1 in a mammalian expression system resulted in no expression of LFA-1. In the case of the mutation in patient 14 there was markedly diminished expression of LFA-1 with loss of function and loss of the epitope for a number of anti-beta mAbs. Normal half-life of the mutant beta subunits, and previous demonstration of a lack of alpha/beta complex formation during biosynthesis in patient cells, suggest a defect in association with the alpha subunit. Association with beta is required for expression of the alpha subunit of LFA-1. Loss of functional expression with both of these beta subunit mutations suggests that they lie in a site critical for association with the alpha subunit.

Synthesis and translocation of Na(+)-K(+)-ATPase alpha- and beta-subunits to plasma membrane in MDCK cells

1992 ◽  
Vol 262 (2) ◽  
pp. C470-C483 ◽  
Author(s):  
A. K. Mircheff ◽  
J. W. Bowen ◽  
S. C. Yiu ◽  
A. A. McDonough
Keyword(s):  
Plasma Membrane ◽  
Mdck Cells ◽  
Subcellular Fractionation ◽  
Beta Subunit ◽  
Alpha Subunit ◽  
Beta Subunits ◽  
Madin Darby Canine Kidney ◽  
Intracellular Membranes ◽  
Alpha Beta ◽  
Darby Canine Kidney

Synthesis and translocation of Na(+)-K(+)-ATPase alpha-catalytic and beta-glycoprotein subunits from intracellular membranes to the plasma membrane were studied in Madin-Darby canine kidney cells (MDCK-T) by combining the methods of pulse-chase labeling, subcellular fractionation on sorbitol gradients, and immunoprecipitation. Immunoprecipitation from homogenates revealed that radioactive methionine incorporated into beta-subunit was equal to that incorporated into alpha-subunit after 15 min of labeling. Because the ratio of total methionines in alpha- vs. beta-subunit is approximately 5:1, these results suggest that beta-subunit is synthesized in molar excess over alpha-subunit. Half of the newly synthesized beta-subunit, likely unassembled units, were degraded by 60 min after labeling, while alpha-subunits were stable through 120 min after synthesis, suggesting alpha may be limiting for alpha beta-assembly. By 120 min the ratio of counts incorporated into alpha vs. beta approached 5, which is predicted by a 1:1 ratio of alpha to beta. The sorbitol gradient resolved two major membrane samples: a mixture of endoplasmic reticulum and Golgi populations and a plasma membrane-enriched sample. Immature beta (beta i) could not be detected in the plasma membrane-enriched samples at levels greater than could be attributed to cross-contamination by intracellular membranes. Mature beta (beta m) became detectable after 30 min, and conversion of beta i to beta m was 90% complete at 120 min. A peak of labeled alpha-subunit appeared in the plasma membrane-enriched sample at 60 min, coincident with the appearance of labeled beta m-subunit in this sample, suggesting movement as alpha beta-heterodimers.

Epitope-selective, monoclonal-antibody-based immunoradiometric assays of predictable specificity for differential measurement of choriogonadotropin and its subunits.

1985 ◽  
Vol 31 (8) ◽  
pp. 1322-1328 ◽  
Author(s):  
S Schwarz ◽  
P Berger ◽  
G Wick
Keyword(s):  
Monoclonal Antibody ◽  
Monoclonal Antibodies ◽  
Conformational Epitope ◽  
Alpha Subunit ◽  
Beta Subunits ◽  
Differential Measurement ◽  
Analytical Strategy ◽  
Alpha Subunits ◽  
Human Choriogonadotropin ◽  
Beta Hcg

Abstract Knowing the epitope specificities of our monoclonal antibodies (MCA) to human choriogonadotropin (hCG), we could design three classes of two-site immunoradiometric assays (IRMA): a combination of two MCA recognizing two separate alpha-epitopes (alpha-MCA) provides a system (i.e., an alpha-IRMA) that measures holo-hCG plus free alpha-subunits plus follitropin, lutropin, and thyrotropin, whereas a beta-IRMA, consisting of two beta-MCA, quantifies holo-hCG plus free beta-subunits. The amount of either of the two subunits can be calculated by subtracting the amount of holo-hCG determined in parallel in a holo-hCG-IRMA. In the latter, one of the alpha- or beta-MCA may be either cross-combined or, preferably, paired with an MCA specific for a conformational epitope. These analytical specificities, predicted from our previously established epitope map of hCG, could be experimentally verified. With these IRMAS we could demonstrate that in certain choriocarcinoma cell lines the earliest and quantitatively predominant tumor marker is the free alpha-subunit. Similar results showing an unbalanced secretion of hCG and its subunits were obtained for patients with related tumors. These findings challenge the present diagnostic practice of relying solely on "beta-hCG" radioimmunoassays and at the same time offer a novel analytical strategy.

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